領(lǐng)先全球Renesas quartz crystal oscillator專用智能家居,隨著傳感器和MCU成本的下降和出貨量的飆升,越來越多的組織試圖通過將傳感器驅(qū)動的嵌入式AI添加到他們的產(chǎn)品中來加以利用。
汽車正在推動這一趨勢——目前平均每輛非自動駕駛汽車有100個傳感器,向30-50個微控制器發(fā)送信息,這些微控制器運行大約100萬行代碼,每天每輛汽車產(chǎn)生1TB的數(shù)據(jù)。豪華汽車的數(shù)量可能是這個數(shù)字的兩倍,而自動駕駛汽車增加傳感器檢查的幅度要大得多。
然而,這不僅僅是汽車行業(yè)的趨勢。隨著旋轉(zhuǎn)、往復和其他類型設(shè)備的創(chuàng)造者爭相增加狀態(tài)監(jiān)控和預測支持的有用性,以及大量新的消費產(chǎn)品(從牙刷到真空吸塵器,再到健身監(jiān)控器)增加儀器和“智能”,工業(yè)設(shè)備正變得越來越“聰明”。因此,需要更加優(yōu)質(zhì)的有源晶體振蕩器元器件加以搭配使用。
每個月都會推出越來越多的智能設(shè)備。我們現(xiàn)在正處于一個點上,人工智能和機器學習在其異常重要的結(jié)構(gòu)中發(fā)現(xiàn)了進入嵌入式設(shè)備核心的方法。例如,智能家居照明系統(tǒng)會根據(jù)房間內(nèi)是否有人而自動開關(guān)。從各方面來看,這個系統(tǒng)看起來并不時尚。然而,當你考慮所有的事情時,你會明白這個系統(tǒng)實際上是獨自決定選擇的。鑒于傳感器的貢獻,微控制器/片上系統(tǒng)(SoC)決定是否開燈。
要同時做到這一切,在邊緣、重要的限制范圍內(nèi),擊敗多樣性,實現(xiàn)實時、麻煩的檢測,一點也不簡單。在任何情況下,利用當前的工具,整合信號機器學習的新選項(如Reality AI)變得越來越簡單。
它們可以定期實現(xiàn)逃避傳統(tǒng)工程模型的檢測。他們通過顯著提高數(shù)據(jù)的生產(chǎn)率和利用率來戰(zhàn)勝變化,從而做到這一點。傳統(tǒng)的工程方法通常建立在物理模型上,利用數(shù)據(jù)來評估參數(shù),而機器學習方法可以自動適應這些模型。他們想出了如何從原始信息中直接識別簽名,并利用機器學習(數(shù)學)的機制將目標從非目標中分離出來,而不依賴于物理科學。
Mfr Part #
Mfr
Description
Series
Frequency
Output
Voltage - Supply
Frequency Stability
Absolute Pull Range (APR)
XLH738080.000000X
Renesas晶振
XTAL OSC XO 80.0000MHZ HCMOS SMD
XPRESSO FXO-HC73
80 MHz
HCMOS
3.3V
±20ppm
-
XLH738051.840000X
Renesas晶振
XTAL OSC XO 51.8400MHZ HCMOS SMD
XPRESSO FXO-HC73
51.84 MHz
HCMOS
3.3V
±20ppm
-
XLH738050.000000X
Renesas晶振
XTAL OSC XO 50.0000MHZ HCMOS SMD
XPRESSO FXO-HC73
50 MHz
HCMOS
3.3V
±20ppm
-
XLH738048.000000X
Renesas晶振
XTAL OSC XO 48.0000MHZ HCMOS SMD
XPRESSO FXO-HC73
48 MHz
HCMOS
3.3V
±20ppm
-
XLH738040.960000X
Renesas晶振
XTAL OSC XO 40.9600MHZ HCMOS SMD
XPRESSO FXO-HC73
40.96 MHz
HCMOS
3.3V
±20ppm
-
XLH738040.000000X
Renesas晶振
XTAL OSC XO 40.0000MHZ HCMOS SMD
XPRESSO FXO-HC73
40 MHz
HCMOS
3.3V
±20ppm
-
XLH738033.000000X
Renesas晶振
XTAL OSC XO 33.0000MHZ HCMOS SMD
XPRESSO FXO-HC73
33 MHz
HCMOS
3.3V
±20ppm
-
XLH738027.000000X
Renesas晶振
XTAL OSC XO 27.0000MHZ HCMOS SMD
XPRESSO FXO-HC73
27 MHz
HCMOS
3.3V
±20ppm
-
XLH738025.000000X
Renesas晶振
XTAL OSC XO 25.0000MHZ HCMOS SMD
XPRESSO FXO-HC73
25 MHz
HCMOS
3.3V
±20ppm
-
XLH738020.000000X
Renesas晶振
XTAL OSC XO 20.0000MHZ HCMOS SMD
XPRESSO FXO-HC73
20 MHz
HCMOS
3.3V
±20ppm
-
XLH738019.440000X
Renesas晶振
XTAL OSC XO 19.4400MHZ HCMOS SMD
XPRESSO FXO-HC73
19.44 MHz
HCMOS
3.3V
±20ppm
-
XLH738019.200000X
Renesas晶振
XTAL OSC XO 19.2000MHZ HCMOS SMD
XPRESSO FXO-HC73
19.2 MHz
HCMOS
3.3V
±20ppm
-
XLH738018.432000X
Renesas晶振
XTAL OSC XO 18.4320MHZ HCMOS SMD
XPRESSO FXO-HC73
18.432 MHz
HCMOS
3.3V
±20ppm
-
XLH738017.000000X
Renesas晶振
XTAL OSC XO 17.0000MHZ HCMOS SMD
XPRESSO FXO-HC73
17 MHz
HCMOS
3.3V
±20ppm
-
XLH738016.393000X
Renesas晶振
XTAL OSC XO 16.3930MHZ HCMOS SMD
XPRESSO FXO-HC73
16.393 MHz
HCMOS
3.3V
±20ppm
-
XLH738016.000000X
Renesas晶振
XTAL OSC XO 16.0000MHZ HCMOS SMD
XPRESSO FXO-HC73
16 MHz
HCMOS
3.3V
±20ppm
-
XLH738015.360000X
Renesas晶振
XTAL OSC XO 15.3600MHZ HCMOS SMD
XPRESSO FXO-HC73
15.36 MHz
HCMOS
3.3V
±20ppm
-
XLH738012.288000X
Renesas晶振
XTAL OSC XO 12.2880MHZ HCMOS SMD
XPRESSO FXO-HC73
12.288 MHz
HCMOS
3.3V
±20ppm
-
XLH335156.250000I
Renesas晶振
XTAL OSC XO 156.2500MHZ HCMOS
XPRESSO FXO-HC33
156.25 MHz
HCMOS
3.3V
±50ppm
-
XLH335150.000000I
Renesas晶振
XTAL OSC XO 150.0000MHZ HCMOS
XPRESSO FXO-HC33
150 MHz
HCMOS
3.3V
±50ppm
-
XLH536036.571428I
Renesas晶振
OSC 36.571428 MHZ 3.3V SMD
*
-
-
-
-
-
XLH536026.666000I
Renesas晶振
XTAL OSC XO 26.6660MHZ HCMOS SMD晶振
XPRESSO FXO-HC53
26.666 MHz
HCMOS
3.3V
±25ppm
-
XLH726125.000000I
Renesas晶振
XTAL OSC XO 125.0000MHZ HCMOS
XPRESSO FXO-HC72
125 MHz
HCMOS
2.5V
±25ppm
-
XLH736033.333330I
Renesas晶振
XTAL OSC XO 33.33333MHZ HCMOS
XPRESSO FXO-HC73
33.33333 MHz
HCMOS
3.3V
±25ppm
-
XLH736070.000000I
Renesas晶振
XTAL OSC XO 70.0000MHZ HCMOS SMD
XPRESSO FXO-HC73
70 MHz
HCMOS
3.3V
±25ppm
-
XLH736074.250000I
Renesas晶振
XTAL OSC XO 74.2500MHZ HCMOS SMD
XPRESSO FXO-HC73
74.25 MHz
HCMOS
3.3V
±25ppm
-
XLH736065.536000I
Renesas晶振
XTAL OSC XO 65.5360MHZ HCMOS SMD
XPRESSO FXO-HC73
65.536 MHz
HCMOS
3.3V
±25ppm
-
XLH736007.372800I
Renesas晶振
XTAL OSC XO 7.3728MHZ HCMOS SMD
XPRESSO FXO-HC73
7.3728 MHz
HCMOS
3.3V
±25ppm
-
XLH538028.891426X
Renesas晶振
XTAL OSC XO 28.891426MHZ HCMOS
XPRESSO FXO-HC53
28.891426 MHz
HCMOS
3.3V
±20ppm
-
XLH738018.874368X
Renesas晶振
XTAL OSC XO 18.874368MHZ HCMOS
XPRESSO FXO-HC73
18.874368 MHz
HCMOS
3.3V
±20ppm
-
XLH726033.000000I
Renesas晶振
XTAL OSC XO 33.0000MHZ HCMOS SMD
XL
33 MHz
HCMOS
2.5V
±25ppm
-
XLH726060.000000I
Renesas晶振
XTAL OSC XO 60.0000MHZ HCMOS SMD
XL
60 MHz
HCMOS
2.5V
±25ppm
-
XLH336022.118400I
Renesas晶振
XTAL OSC XO 22.1184MHZ HCMOS SMD
XL
22.1184 MHz
HCMOS
3.3V
±25ppm
-
XLH726026.214400I
Renesas晶振
XTAL OSC XO 26.2144MHZ HCMOS SMD
XL
26.2144 MHz
HCMOS
2.5V
±25ppm
-
XLH736038.000000I
Renesas晶振
XTAL OSC XO 38.0000MHZ HCMOS SMD
XL
38 MHz
HCMOS
3.3V
±25ppm
-
XLH536148.511000X
Renesas晶振
XTAL OSC XO 148.5110MHZ HCMOS
XL
148.511 MHz
HCMOS
3.3V
±25ppm
-
XLH736026.214400I
Renesas晶振
XTAL OSC XO 26.2144MHZ HCMOS SMD
XL
26.2144 MHz
HCMOS
3.3V
±25ppm
-
XLH736028.000000I
Renesas晶振
XTAL OSC XO 28.0000MHZ HCMOS SMD
XL
28 MHz
HCMOS
3.3V
±25ppm
-
XLH736033.554400I
Renesas晶振
XTAL OSC XO 33.5544MHZ HCMOS SMD
XL
33.5544 MHz
HCMOS
3.3V
±25ppm
-
XUH518027.120000X
Renesas晶振
CLCC 5.00X3.20X1.10 MM, 2.54MM P
XU
27.12 MHz
HCMOS
1.8V
±20ppm
-
XLH326002.000000I
Renesas晶振
XTAL OSC XO 2.0000MHZ HCMOS SMD
XL
2 MHz
HCMOS
2.5V
±25ppm
-
XLH536121.500000I
Renesas晶振
XTAL OSC XO 121.5000MHZ HCMOS
XL
121.5 MHz
HCMOS
3.3V
±25ppm
-
XLH726026.563828I
Renesas晶振
XTAL OSC XO 26.563828MHZ HCMOS
XL
26.563828 MHz
HCMOS
2.5V
±25ppm
-
XLH736034.368000I
Renesas晶振
XTAL OSC XO 34.3680MHZ HCMOS SMD
XL
34.368 MHz
HCMOS
3.3V
±25ppm
-
XLH536110.000000I
Renesas晶振
XTAL OSC XO 110.0000MHZ HCMOS
XL
110 MHz
HCMOS
3.3V
±25ppm
-
XUH538024.576000X
Renesas晶振
CLCC 5.00X3.20X1.10 MM, 2.54MM P
XU
24.576 MHz
HCMOS
3.3V
±20ppm
-
XLH736039.950000I
Renesas晶振
XTAL OSC XO 39.9500MHZ HCMOS SMD
XL
39.95 MHz
HCMOS
3.3V
±25ppm
-
XLH330148.500000I
Renesas晶振
XTAL OSC XO 148.5000MHZ HCMOS
XL
148.5 MHz
HCMOS
3.3V
±100ppm
-
XLH736027.540000I
Renesas晶振
XTAL OSC XO 27.5400MHZ HCMOS SMD
XL
27.54 MHz
HCMOS
3.3V
±25ppm
-
XLH726026.561172I
Renesas晶振
XTAL OSC XO 26.561172MHZ HCMOS
XL
26.561172 MHz
HCMOS
2.5V
±25ppm
-
XLH736028.450560I
Renesas晶振
XTAL OSC XO 28.45056MHZ HCMOS
XL
28.45056 MHz
HCMOS
3.3V
±25ppm
-
XLH336024.545455I
Renesas晶振
XTAL OSC XO 24.545455MHZ HCMOS
XL
24.545455 MHz
HCMOS
3.3V
±25ppm
-
XLH738092.500000X
Renesas晶振
XTAL OSC XO 92.5000MHZ HCMOS SMD
XL
92.5 MHz
HCMOS
3.3V
±20ppm
-
XLH736048.839200I
Renesas晶振
XTAL OSC XO 48.8392MHZ HCMOS SMD
XL
48.8392 MHz
HCMOS
3.3V
±25ppm
-
XLH736090.136800I
Renesas晶振
XTAL OSC XO 90.1368MHZ HCMOS SMD
XL
90.1368 MHz
HCMOS
3.3V
±25ppm
-
XLH736028.375000I
Renesas晶振
XTAL OSC XO 28.3750MHZ HCMOS SMD
XL
28.375 MHz
HCMOS
3.3V
±25ppm
-
XUH738016.125000X
Renesas晶振
CLCC 7.00X5.00X1.30 MM, 2.54MM P
XU
16.125 MHz
HCMOS
3.3V
±20ppm
-
XLH328019.200000X
Renesas晶振
XTAL OSC XO 19.2000MHZ HCMOS SMD
XL
19.2 MHz
HCMOS
2.5V
±20ppm
-
XLH528040.000000X
Renesas晶振
XTAL OSC XO 40.0000MHZ HCMOS SMD
XL
40 MHz
HCMOS
2.5V
±20ppm
-
XUH738044.736000X
Renesas晶振
CLCC 7.00X5.00X1.30 MM, 2.54MM P
XU
44.736 MHz
HCMOS
3.3V
±20ppm
-
XUH518033.333333X
Renesas晶振
CLCC 5.00X3.20X1.10 MM, 2.54MM P
XU
33.333333 MHz
HCMOS
1.8V
±20ppm
-
XUH738025.000000X
Renesas晶振
CLCC 7.00X5.00X1.30 MM, 2.54MM P
XU
25 MHz
HCMOS
3.3V
±20ppm
-
XLH526080.000000I
Renesas晶振
XTAL OSC XO 80.0000MHZ HCMOS SMD
XL
80 MHz
HCMOS
2.5V
±25ppm
-
XLH738078.643200X
Renesas晶振
XTAL OSC XO 78.6432MHZ HCMOS SMD
XL
78.6432 MHz
HCMOS
3.3V
±20ppm
-
XLH726096.000000I
Renesas晶振
XTAL OSC XO 96.0000MHZ HCMOS SMD
XL
96 MHz
HCMOS
2.5V
±25ppm
-
XLH728080.000000X
Renesas晶振
XTAL OSC XO 80.0000MHZ HCMOS SMD
XL
80 MHz
HCMOS
2.5V
±20ppm
-
XLH738000.921600X
Renesas晶振
XTAL OSC XO 921.6000KHZ HCMOS
XL
921.6 kHz
HCMOS
3.3V
±20ppm
-
XLH336029.500000I
Renesas晶振
XTAL OSC XO 29.5000MHZ HCMOS SMD
XL
29.5 MHz
HCMOS
3.3V
±25ppm
-
XLH735015.360000I
Renesas晶振
XTAL OSC XO 15.3600MHZ HCMOS SMD
XL
15.36 MHz
HCMOS
3.3V
±50ppm
-
XLH736045.000000X
Renesas晶振
XTAL OSC XO 45.0000MHZ HCMOS SMD
XL
45 MHz
HCMOS
3.3V
±25ppm
-
XAH526033.300000I
Renesas晶振
XTAL OSC XO 33.3000MHZ LVCMOS
XA
33.3 MHz
LVCMOS
2.5V
±25ppm
-
XLH336013.330000I
Renesas晶振
XTAL OSC XO 13.3300MHZ LVCMOS
XL
13.33 MHz
LVCMOS
3.3V
±25ppm
-
XLH336037.125000I
瑞薩差分晶振
XTAL OSC XO 37.1250MHZ LVCMOS
XL
37.125 MHz
LVCMOS
3.3V
±25ppm
-
XLH336002.048000I
Renesas晶振
XTAL OSC XO 2.0480MHZ LVCMOS SMD
XL
2.048 MHz
LVCMOS
3.3V
±25ppm
-
XLH336032.051655I
Renesas晶振
XTAL OSC XO 32.051655MHZ LVCMOS
XL
32.051655 MHz
LVCMOS
3.3V
±25ppm
-
XLH328033.333000X
Renesas晶振
XTAL OSC XO 33.3330MHZ LVCMOS
XL
33.333 MHz
LVCMOS
2.5V
±20ppm
-
XLH336033.330000I
Renesas晶振
XTAL OSC XO 33.3300MHZ LVCMOS
XL
33.33 MHz
LVCMOS
3.3V
±25ppm
-
XLH336031.948512I
Renesas晶振
XTAL OSC XO 31.948512MHZ LVCMOS
XL
31.948512 MHz
LVCMOS
3.3V
±25ppm
-
XLH336019.000000I
Renesas晶振
XTAL OSC XO 19.0000MHZ LVCMOS
XL
19 MHz
LVCMOS
3.3V
±25ppm
-
XLH730030.875520I
Renesas晶振
XTAL OSC XO 30.87552MHZ LVCMOS
XL
30.87552 MHz
LVCMOS
3.3V
±100ppm
-
XLH535003.686000I
Renesas晶振
XTAL OSC XO 3.6860MHZ LVCMOS SMD
XL
3.686 MHz
LVCMOS
3.3V
±50ppm
-
XLH736078.125000X
Renesas晶振
XTAL OSC XO 78.1250MHZ LVCMOS
XL
78.125 MHz
LVCMOS
3.3V
±25ppm
-
XLH736025.750000X
Renesas晶振
XTAL OSC XO 25.7500MHZ LVCMOS
XL
25.75 MHz
LVCMOS
3.3V
±25ppm
-
XLH535013.330000I
Renesas晶振
XTAL OSC XO 13.3300MHZ LVCMOS
XL
13.33 MHz
LVCMOS
3.3V
±50ppm
-
XLH338040.953873X
Renesas晶振
XTAL OSC XO 40.953873MHZ LVCMOS
XL
40.953873 MHz
LVCMOS
3.3V
±20ppm
-
在許多不同的領(lǐng)域,機器學習和嵌入式系統(tǒng)的融合將帶來巨大的機遇。例如,醫(yī)療保健現(xiàn)在正在獲得將資源投入人工智能技術(shù)的回報。物聯(lián)網(wǎng)也將從人工智能的引入中獲得巨大收益。我們將擁有智能自動化有源晶振解決方案,促進能源節(jié)約、成本效率以及人類失誤的終結(jié)。
預測是許多ML/AI對話的中心,因為組織希望使用神經(jīng)網(wǎng)絡(luò)和深度學習來推測時間序列數(shù)據(jù)。價值在于吸收信息并迅速了解信息如何改變長期前景的能力。此外,很大一部分情況依賴于全球供應鏈,這使得改進變得更加難以精確預測。領(lǐng)先全球Renesas quartz crystal oscillator專用智能家居.
也許生產(chǎn)線上最不安全的位置現(xiàn)在是由機器處理的。由于嵌入式電子和工業(yè)自動化的進步,我們的OSC晶振有了突破性的微控制器來運行裝配廠的整個機械生產(chǎn)系統(tǒng)。然而,這些機器中的大多數(shù)并不完全是自動的,仍然需要一種人工干預。無論如何,機器學習的引入將有助于工程師制造真正智能的機器,這些機器可以在沒有人類干預的情況下工作。
Throughout the most recent years, as sensor and MCU costs dove and shipped volumes have gone through the roof, an ever-increasing number of organizations have attempted to exploit by adding sensor-driven embedded AI to their products.
Automotive is driving the trend– the average non-autonomous vehicle presently has 100 sensors, sending information to 30-50 microcontrollers that run about 1m lines of code and create 1TB of data per vehicle every day. Extravagance vehicles may have twice the same number of, and autonomous vehicles increase the sensor check significantly more drastically.
Yet, it's not simply an automotive trend. Industrial equipment is turning out to be progressively "brilliant" as creators of rotating, reciprocating and other types of equipment rush to add usefulness for condition monitoring and predictive support, and a huge number of new consumer products from toothbrushes, to vacuum cleaners, to fitness monitors add instrumentation and "smarts".
An ever-increasing number of smart devices are being introduced each month. We are now at a point where artificial intelligence and machine learning in its exceptionally essential structure has discovered its way into the core of embedded devices. For example, smart home lighting systems that automatically turn on and off depend on whether anybody is available in the room. By all accounts, the system doesn't look excessively stylish. Yet, when you consider everything, you understand that the system is really settling on choices all alone. In view of the contribution from the sensor, the microcontroller/system-on-chip (SoC) concludes if to turn on the light or not.
To do all of this simultaneously, defeating variety to achieve troublesome detections in real-time, at the edge, inside the vital limitations isn't at all simple. In any case, with current tools, integrating new options for machine learning for signals (like Reality AI) it is getting simpler.
They can regularly achieve detections that escape traditional engineering models. They do this by making significantly more productive and compelling utilization of data to conquer variation. Where traditional engineering approaches will ordinarily be founded on a physical model, utilizing data to appraise parameters, machine learning approaches can adapt autonomously of those models. They figure out how to recognize signatures straightforwardly from the raw information and utilize the mechanics of machine learning (mathematics) to isolate targets from non-targets without depending on physical science.
There are a lot of different regions where the convergence of machine learning and embedded systems will prompt great opportunities. Healthcare, for example, is now receiving the rewards of putting resources into AI technology. The Internet of Things or IoT will likewise profit enormously from the introduction of artificial intelligence. We will have smart automation solutions that will prompt energy savings, cost proficiency as well as the end of human blunder.
Forecasting is at the center of so many ML/AI conversations as organizations hope to use neural networks and deep learning to conjecture time series data. The worth is the capacity to ingest information and quickly acknowledge insight into how it changes the long-term outlook. Further, a large part of the circumstance relies upon the global supply chain, which makes improvements significantly harder to precisely project.
Probably the most unsafe positions in production lines are as of now being dealt by machines. Because of the advancement in embedded electronics and industrial automation, we have ground-breaking microcontrollers running the whole mechanical production systems in assembling plants. However, the majority of these machines are not exactly completely automatic and still require a type of human intercession. In any case, the time will come when the introduction of machine learning will help engineers concoct truly intelligent machines that can work with zero human mediation.
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